What is the Difference Between Exact Mass and Molecular Weight?

The main difference between exact mass and molecular weight lies in the consideration of isotopic composition.

• Exact Mass: This is the mass of a molecule calculated with only the most abundant isotopes present, which are usually the lightest isotopes. The exact mass is also called the monoisotopic mass. It is calculated by adding the exact masses of the most abundant isotopes of the constituent elements.
• Molecular Weight: This is the average mass of a molecule, considering all the molecules with different isotopic compositions, each weighted for the natural abundance of the respective isotope(s). The molecular weight is directly related to the carbon-12 isotope, and it is calculated by adding the atomic weights of all the atoms in a molecule.

For example, the molecular weight of propane is 44.0956 g/mol, while its exact molecular mass for the molecules with the lightest isotopes is 44.0626 amu. The difference between molecular weight and exact mass is generally slight for small molecules and increases with the presence of elements having more than one significant isotope or larger numbers of an element with a not-so-significant isotope (e.g., carbon).

Comparative Table: Exact Mass vs Molecular Weight

The following table highlights the key differences between exact mass and molecular weight:

In summary, exact mass is the precise mass of a molecule considering only the most abundant isotopes, while molecular weight is the average mass of a molecule, taking into account the isotopic distribution of atoms.